479575c0ca
Allow for configuration macros to aid in fixing #631 |
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.github | ||
cmake | ||
docs | ||
examples | ||
scripts | ||
single/sol | ||
sol | ||
tests | ||
.clang-format | ||
.dockerignore | ||
.gitignore | ||
.gitmodules | ||
.style.yapf | ||
.travis.yml | ||
appveyor.yml | ||
CMakeLists.txt | ||
CONTRIBUTING.md | ||
Dockerfile | ||
LICENSE.txt | ||
ninja_syntax.py | ||
README.md | ||
single.py | ||
sol.hpp | ||
sol2.natvis | ||
sol2.pc.in |
Sol 2.19
Sol is a C++ library binding to Lua. It currently supports all Lua versions 5.1+ (LuaJIT 2.x included). Sol aims to be easy to use and easy to add to a project. The library is header-only for easy integration with projects.
Documentation
Find it here. A run-through kind of tutorial is here! The API documentation goes over most cases (particularly, the "api/usertype" and "api/proxy" and "api/function" sections) that should still get you off your feet and going, and there's an examples directory here as well.
Sneak Peek
#include <sol.hpp>
#include <cassert>
int main() {
sol::state lua;
int x = 0;
lua.set_function("beep", [&x]{ ++x; });
lua.script("beep()");
assert(x == 1);
}
#include <sol.hpp>
#include <cassert>
struct vars {
int boop = 0;
};
int main() {
sol::state lua;
lua.new_usertype<vars>("vars", "boop", &vars::boop);
lua.script("beep = vars.new()\n"
"beep.boop = 1");
assert(lua.get<vars>("beep").boop == 1);
}
More examples are given in the examples directory here.
Presentations
"A Sun For the Moon - A Zero-Overhead Lua Abstraction using C++"
ThePhD
Lua Workshop 2016 - Mashape, San Francisco, CA
Deck
"Wrapping Lua C in C++ - Efficiently, Nicely, and with a Touch of Magic"
ThePhD
Boston C++ Meetup November 2017 - CiC (Milk Street), Boston, MA
Deck
"Biting the CMake Bullet"
ThePhD
Boston C++ Meetup February 2018 - CiC (Main Street), Cambridge, MA
Deck
Creating a single header
You can grab a single header (and the single forward header) out of the library here. For stable version, check the releases tab on github for a provided single header file for maximum ease of use. A script called single.py
is provided in the repository if there's some bleeding edge change that hasn't been published on the releases page. You can run this script to create a single file version of the library so you can only include that part of it. Check single.py --help
for more info.
If you use CMake, you can also configure and generate a project that will generate the sol2_single_header for you. You can also include the project using Cmake. Run CMake for more details. Thanks @Nava2, @alkino, @mrgreywater and others for help with making the CMake build a reality.
Features
- Fastest in the land (see: sol bar in graph).
- Supports retrieval and setting of multiple types including:
std::string
,std::wstring
,std::u16string
andstd::u32string
support (and for views).- understands and works with containers such as
std::map/unordered_map
, c-style arrays, vectors, non-standard custom containers and more. - user-defined types, with or without registering that type
std::unique_ptr
,std::shared_ptr
, and optional support of other pointer types likeboost::shared_ptr
.- custom
optional<T>
that works with references. - C++17 support for variants and similar new types.
- Lambda, function, and member function bindings are supported.
- Intermediate type for checking if a variable exists.
- Simple API that completely abstracts away the C stack API, including
protected_function
with the ability to use an error-handling function. operator[]
-style manipulation of tables- C++ type representations in lua userdata as
usertype
s with guaranteed cleanup. - Customization points to allow your C++ objects to be pushed and retrieved from Lua as multiple consecutive objects, or anything else you desire!
- Overloaded function calls:
my_function(1); my_function("Hello")
in the same lua script route to different function calls based on parameters - Support for tables, nested tables, table iteration with
table.for_each
/begin()
andend()
iterators. - Zero overhead for usertype function call lookup when using
SOL_USE_BOOST
, safe for critical applications
Supported Compilers
Sol makes use of C++11 and C++14 features. GCC 5.x.x and Clang 3.6.x (with -std=c++1z
and appropriate standard library)
or higher should be able to compile without problems. However, the officially supported and CI-tested compilers are:
- GCC 5.x.x+ (MinGW 5.x.x+)
- Clang 3.6.x+
- Visual Studio 2015 Community (Visual C++ 14.0)+
Please make sure you use the -std=c++1y
, -std=c++14
, -std=c++1z
, -std=c++17
or better standard flags
(some of these flags are the defaults in later versions of GCC, such as 6+ and better).
Older compilers (GCC 4.9.x, Clang 3.4.x seem to be the lowest) can work with versions as late
as v2.17.5, with the flag -std=c++14
or -std=c++1y
.
sol2 is checked by-hand for other platforms as well, including Android-based builds with GCC and iOS-based builds out of XCode with Apple-clang. It should work on both of these platforms, so long as you have the proper standards flags.
Running the Tests
Testing on Travis-CI and Appveyor use CMake. You can generate the tests by running CMake and configuring TESTS
, TESTS_SINGLE
, TESTS_EXAMPLES
, and EXAMPLES
to be on. Make sure SINGLE
is also on.
You will need any flavor of python3 and an available compiler. The testing suite will build its own version of Lua and LuaJIT, so you do not have to.
Supporting
You can help out the library by submitting pull requests to fix anything or add anything you think would be helpful! This includes making small, useful examples of something you haven't seen, or fixing typos and bad code in the documentation.
You can also donate to support me and my family, which is always appreciated!
License
Sol is distributed with an MIT License. You can see LICENSE.txt for more info.